A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells

The long-term performance of non-ion selective separators, zirconia ceramic filter (ZCF) with a various pore size such as 0.14 μm ZCF1, 150 kDa ZCF2 and 5 kDa ZCF3 were compared to commercial cation exchange membrane (CEM), Nafion 117 in microbial fuel cells. The ZCF3 generated the highest performa...

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Main Authors: Daud, S.M., Wan Daud, W.R., Abu Bakar, M.H., Kim, B.H., Somalu, M.R., Jahim, J.M., Muchtar, A., Ghasemi, M.
Format: Article
Published: 2019
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056222182&doi=10.1016%2fj.ibiod.2018.11.001&partnerID=40&md5=602613a760b6b19d2353c38a20506ead
http://eprints.utp.edu.my/22282/
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spelling my.utp.eprints.222822019-02-28T02:39:08Z A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells Daud, S.M. Wan Daud, W.R. Abu Bakar, M.H. Kim, B.H. Somalu, M.R. Jahim, J.M. Muchtar, A. Ghasemi, M. The long-term performance of non-ion selective separators, zirconia ceramic filter (ZCF) with a various pore size such as 0.14 μm ZCF1, 150 kDa ZCF2 and 5 kDa ZCF3 were compared to commercial cation exchange membrane (CEM), Nafion 117 in microbial fuel cells. The ZCF3 generated the highest performance of 2800 ± 14.5 mWm�2 (5.9 Am�2) compared to CEM: 1800 ± 17.8 mWm�2, 4.0 Am�2. Meanwhile, the CEM exhibited maximum power decline during the reverse sweep (61.7) when analyzed using the bi-directional polarization method. The non-ion selective membranes displayed reduced in maximum power decline during the reverse sweep (ZCF1 50, ZCF2 40 and ZCF3 42.8). In addition, the ZCF3 showed the highest proton conductivity and water uptake, 0.863 � 10�1 Scm�1 and 93.7 respectively, followed by ZCF2 (0.729 � 10�1 Scm�1, 80.98), ZCF1 (0.624 � 10�1 Scm�1, 73.99) and Nafion 117 (0.367 � 10�2 Scm�1, 57.07). The ZCF3 appeared as an efficient material for electrochemical active bacteria, maintaining the high power of 1600 mWm�2, compared to CEM: 600 mWm�2 after eight months� operation under batch mode. The long-term operation of MFCs was affected by the reduction of power output, caused by the increase in the thickness of the biofilm. © 2018 Elsevier Ltd 2019 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056222182&doi=10.1016%2fj.ibiod.2018.11.001&partnerID=40&md5=602613a760b6b19d2353c38a20506ead Daud, S.M. and Wan Daud, W.R. and Abu Bakar, M.H. and Kim, B.H. and Somalu, M.R. and Jahim, J.M. and Muchtar, A. and Ghasemi, M. (2019) A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells. International Biodeterioration and Biodegradation, 136 . pp. 63-70. http://eprints.utp.edu.my/22282/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description The long-term performance of non-ion selective separators, zirconia ceramic filter (ZCF) with a various pore size such as 0.14 μm ZCF1, 150 kDa ZCF2 and 5 kDa ZCF3 were compared to commercial cation exchange membrane (CEM), Nafion 117 in microbial fuel cells. The ZCF3 generated the highest performance of 2800 ± 14.5 mWm�2 (5.9 Am�2) compared to CEM: 1800 ± 17.8 mWm�2, 4.0 Am�2. Meanwhile, the CEM exhibited maximum power decline during the reverse sweep (61.7) when analyzed using the bi-directional polarization method. The non-ion selective membranes displayed reduced in maximum power decline during the reverse sweep (ZCF1 50, ZCF2 40 and ZCF3 42.8). In addition, the ZCF3 showed the highest proton conductivity and water uptake, 0.863 � 10�1 Scm�1 and 93.7 respectively, followed by ZCF2 (0.729 � 10�1 Scm�1, 80.98), ZCF1 (0.624 � 10�1 Scm�1, 73.99) and Nafion 117 (0.367 � 10�2 Scm�1, 57.07). The ZCF3 appeared as an efficient material for electrochemical active bacteria, maintaining the high power of 1600 mWm�2, compared to CEM: 600 mWm�2 after eight months� operation under batch mode. The long-term operation of MFCs was affected by the reduction of power output, caused by the increase in the thickness of the biofilm. © 2018 Elsevier Ltd
format Article
author Daud, S.M.
Wan Daud, W.R.
Abu Bakar, M.H.
Kim, B.H.
Somalu, M.R.
Jahim, J.M.
Muchtar, A.
Ghasemi, M.
spellingShingle Daud, S.M.
Wan Daud, W.R.
Abu Bakar, M.H.
Kim, B.H.
Somalu, M.R.
Jahim, J.M.
Muchtar, A.
Ghasemi, M.
A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
author_facet Daud, S.M.
Wan Daud, W.R.
Abu Bakar, M.H.
Kim, B.H.
Somalu, M.R.
Jahim, J.M.
Muchtar, A.
Ghasemi, M.
author_sort Daud, S.M.
title A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
title_short A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
title_full A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
title_fullStr A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
title_full_unstemmed A comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
title_sort comparison of long-term fouling performance by zirconia ceramic filter and cation exchange in microbial fuel cells
publishDate 2019
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056222182&doi=10.1016%2fj.ibiod.2018.11.001&partnerID=40&md5=602613a760b6b19d2353c38a20506ead
http://eprints.utp.edu.my/22282/
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